Mobility securement system

ABSTRACT

A mobility securement system, and method for securing a wheelchair or other mobility device, and its passenger, within a public or private vehicle. In various embodiments, the system includes one or two attachment members, one or two vehicle anchor assemblies and, potentially, at least one fixed or moveable bumper, and may further include a barrier. A tensioning assembly is operably connected to at least one attachment member and vehicle anchor assembly. One or more moveable bumpers are configured to articulate to in turn apply a force against the mobility device, and one attachment member may be hidden behind a stored position of a moveable bumper.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No. 14/332,276 entitled “Mobility Securement System,” filed Jul. 15, 2014, and incorporated herein by reference in its entirety.

FIELD OF THE DISCLOSURE

The present invention is directed to a system for securing a wheelchair or other mobility device and its occupant in a public or private transportation vehicle.

BACKGROUND OF THE DISCLOSURE

Mobility securement systems have existed to accommodate wheelchair-bound and other disabled passengers on buses for many years. Such systems are designed to secure the mobility device and its passenger during travel, where the bus may encounter sharp turns, may have to brake or accelerate quickly or may be involved in an accident. These events are expected during every day travel, and expose the mobility device and its passenger to forces that are often dangerous, both to them and other passengers near them.

While able-bodied passengers have other options to secure the position of their bodies relative to the vehicle, such as grabbing a nearby seat, stanchion, strap or grabrail, wheelchair-bound passengers and others traveling in mobility devices do not always have such an option. Passengers travelling in mobility devices must depend upon a securement system that holds the mobility device, and, in turn, the occupant, in place relative to the vehicle.

Mobility securement systems are now required throughout the U.S. to accommodate disabled passengers under the Americans with Disabilities Act, or ADA. The Code of Federal Regulations contains specific provisions as to the specifications and standards for such mobility device securement systems. See 36 C.F.R. 1192. For example, mobility securement systems on vehicles having a gross weight of 30,000 pounds or more must be able to restrain a force in a forward direction of up to 2,000 pounds per securement leg or clamping mechanism. Vehicles having a gross vehicle weight of less than 30,000 pounds must be able to restrain a force in a forward direction of up to 2,500 pounds per securement leg or clamping mechanism. Furthermore, the securement system must limit the movement of an occupied wheelchair or mobility device to no more than two inches in any direction under normal operating conditions.

To meet these stringent requirements, suppliers of mobility securement systems have typically used a securement system having either three or four attachment points. In the case of four attachment points, one attachment point is secured to a point near each corner of the wheelchair or other mobility device (e.g. scooter, power mobility device, or other). The area where the disabled passenger and mobility aid are positioned is often referred to as the ADA (Americans with Disability Act) area.

Thus, when the vehicle is in operation and makes a turn, accelerates or brakes, or is involved in an accident, there are at least one or two attachments that are located to act as a countervailing force to the inertia of the mobility device and its occupant. For example, when a vehicle turns left and a mobility device occupant feels a force towards the right, he/she is kept in place by one or more attachments that are connected to the mobility device on the left side. Mobility device tip overs are a problem. A vehicle wall or flip up seat assembly serves to prevent tip over to the wall side but tip overs toward the aisle remain a problem.

Systems with only three attachment points work in a somewhat similar manner; the three attachment points are positioned in such a way that there is an attachment connected to the mobility device to apply a countervailing force against any direction the vehicle may pull the passenger and/or the mobility device. In addition, some mobility securement systems with three attachment points also include a bumper or a barrier to limit motion of the mobility device. The bumper or barrier may be fixed or moveable. Barriers are typically placed behind the mobility device, while bumpers are typically placed alongside it by the window-side of the vehicle. In either case, these bumpers and barriers act to provide another surface against which the mobility device may abut, to brace it against the forces experienced during movement of the vehicle. Tip over problems can exist with some three point attachment systems. More specifically, if the mobility device is not positioned flush with the bumper assembly, there may not be sufficient support to prevent a tip over toward the aisle side. Ideally, three point systems require the disabled passenger or an aide to correctly position the mobility device directly against or very close to the bumper assembly. If the mobility device is placed close to the bumper, the bumper may come in contact with the mobility aid and thus assist in tip over prevention. If the mobility aid does not contact the bumper and one of the three attachments is tensioned, the mobility device effectively becomes secured primarily through the two opposing (front wall side and rear aisle side) attachment belts. Three point systems thus require the operator to correctly position the disabled occupant and mobility aid within the ADA area. This takes additional time and is often not done, or not done properly.

In systems with attachment points, an operator (often the bus driver), must attend to the mobility device to ensure it is secured before travel by attaching each of the three or four attachment points to the mobility device. When the mobility device passenger wishes to get off the bus, the driver must again attend to the passenger to disconnect each of the three or four attachment points. Each of these actions takes precious time away from the driver, and from meeting the often difficult schedule of the bus route.

Furthermore, for each attachment point an operator must attach, the operator encroaches into the disabled passenger's personal space, often making the disabled passenger feel uncomfortable. This is particularly true with the wall side, rear attachment point that is least accessible to the operator.

While some mobility securement systems without any attachment points are known, they have often met with less effectiveness, less acceptance and, accordingly, less commercial success. Such systems have moveable bumpers or barriers on opposite sides from each other, which place a compressive force upon the wheelchair or mobility device. Often, such systems are expensive and intrusive, as part of the system must take up substantial space in or near the aisle of the vehicle.

Often, mobility securement systems, or portions thereof, are designed to be stored underneath a seat, or within a barrier of a vehicle when not in use, which allows the area to be used for seating by other passengers.

Finally, it is important to accommodate different types of mobility devices. In addition of various types and sizes of wheelchairs, there are also other mobility devices such as scooters, power mobility devices, etc, each of which may have 3, 4, 5 or more wheels. Many of these devices have different shapes and configurations. Mobility securement systems that are designed to have four attachment points, may not work to secure a three-wheeled mobility scooter that has one center tiller, rather than the two front wheels of a mobility device.

It would be desirable to provide a mobility securement system, which takes significantly less time and effort to secure a wheelchair or many different types of mobility devices and its passenger, which is (i) compliant with all relevant ADA regulations, (ii) flexible with regard to placement of the mobility device in the ADA area, (iii) capable of being quickly and easily stored, or converted for able-bodied passenger seating, when not in use, (iv) cost effective, and (v) which minimizes the amount of an operator's time, effort, and intrusion into the disabled passenger's personal space.

One of the objects of the present invention is to overcome the shortcomings of the prior art through a securement system that accommodates the “imperfect” positioning of the mobility device while minimizing the time and effort for restraining and releasing that mobility device and its occupant.

SUMMARY OF THE INVENTION

The present invention is directed to a mobility securement system and methods for its securement and use. In a preferred embodiment of the invention, the mobility securement system comprises a first vehicle anchor assembly affixed to a vehicle and positioned proximate the front of the mobility device. A first attachment member is capable of being operably attached between the first vehicle anchor assembly and a first device securement element on the mobility device towards restraining at least a portion of the mobility device within the vehicle. A second vehicle anchor assembly is affixed to the vehicle and positioned substantially proximate the rear of the mobility device. A second attachment member is capable of being operably attached between the second vehicle anchor assembly and a second device securement element on the mobility device, towards further restraining the position of the mobility device within the vehicle. At least one of the first vehicle anchor assembly, second vehicle anchor assembly, first attachment member and second attachment member is connected to a tensioning assembly for imposing a tensile force thereupon. The mobility device is positioned adjacent a bumper that is capable of applying a force against the mobility device, and the mobility securement system is limited to no more than two attachment members to secure the mobility device within the vehicle.

In another preferred embodiment of the invention, the first vehicle anchor assembly is positioned proximate to the wall side of the vehicle, adjacent to the front of the mobility device, with the second vehicle anchor assembly being positioned proximate to the rear aisle side of the mobility device. In this embodiment, the first and second vehicle anchor assembly serve to restrain the mobility device, in conjunction with the bumper, along a diagonal linear axis extending between the front wall side portion and the rear aisle side portion of the mobility device.

In another preferred embodiment of the invention, the bumper is moveable, and may extend to apply a force against the side of a mobility device. By having a movable bumper, the invention more securely confines the disabled occupant in a mobility aid. More specifically, the movable bumper moves toward the mobility aid, thus not requiring the operator or disabled passenger to position the mobility aid against the bumper assembly. This system thus accommodates any mobility aids in the ADA area. This also allows faster, easier placement of the mobility aid in the ADA area. With the bumper tight against the mobility aid, the mobility aid is further prevented from tipping over toward the aisle side.

In another preferred embodiment of the invention, the first vehicle anchor assembly is positioned proximate to the wall side of the vehicle, adjacent to the rear of the mobility device, with the second vehicle anchor assembly being positioned proximate to the front aisle side of the mobility device. In this embodiment, the first and second vehicle anchor assembly serve to restrain the mobility device, in conjunction with the bumper, along a diagonal linear axis extending between the rear wall side portion and the front aisle side portion of the mobility device.

In yet another preferred embodiment of the invention, the moveable bumper extends from proximate to the wall side of the vehicle. In one such embodiment of the invention, the moveable bumper comprises a single moveable bumper that can articulate to apply a force against two or more points of the mobility device, which points may or may not be located at different distances from the wall side of the vehicle. In another preferred embodiment of the invention, the mobility securement system comprises two moveable bumpers that can each extend to apply a force against the mobility device. In yet another embodiment, the two extendible moveable bumpers are each located proximate to the wall side of the vehicle. In another preferred embodiment of the invention, the two moveable bumpers comprise a first bumper and a second bumper, and the first bumper may extend to a position that is different from the second bumper. In yet another such embodiment, at least one moveable bumper can articulate to apply a force to a non-coplanar surface of the mobility device relative to one of said wall side or aisle side of the vehicle. This force can be lateral or downward in direction.

In one preferred embodiment of the invention, at least one of the first and second vehicle anchor assemblies further comprises a tensioning assembly. In another embodiment, each of the first and second vehicle anchor assemblies further comprises a tensioning assembly. In other preferred embodiments of the invention, at least one of said first attachment member and second attachment member is connected to a tensioning assembly for imposing a tensile force thereupon. In yet another preferred embodiment of the invention, each of said first attachment member and second attachment member is connected to a tensioning assembly for imposing a tensile force thereupon. In another preferred embodiment, the at least one of the first and second vehicle anchor assemblies is stored below the vehicle floor, at a position substantially flush to the floor of the vehicle. In another preferred embodiment, at least a portion of a removable vehicle anchor assembly may be attached to a mount or fitting within the floor of the vehicle.

In yet another preferred embodiment of the invention, the mobility securement system further comprises a rear barrier. In one such embodiment of the invention, the second vehicle anchor assembly is located within the rear barrier. In yet another preferred embodiment of the invention, the rear barrier further comprises a moveable bumper that itself can extend forwardly to apply a force against the mobility device. In still another preferred embodiment of the invention, the rear barrier may rotate about an axis. In yet another preferred embodiment, the rear barrier may articulate in a downward direction. The rear barrier may also move in at least one of a forward and backward direction, relative to the vehicle. Preferably, the bumper applies an angularly downward force against the mobility device. In still another preferred embodiment of the invention, the bumper articulates to apply an angularly downward force against the mobility device. The bumper can alternatively articulate to apply a coplanar force against a mobility device, secured in a skewed position relative to the wall side of the vehicle.

In one preferred embodiment, the invention comprises a method for securing a mobility device having a first device securement element and a second device securement element, within a vehicle having a wall side and an aisle side. The method includes the steps of positioning the mobility device against a bumper, such that the bumper applies a force against the side of the mobility device; attaching a first attachment member to a first device securement element of the mobility device; attaching a second attachment member to a second device securement element of the mobility device; activating a tensioning system that is connected to at least one of the first and second attachment members for imposing a tensile force thereupon—in which the method for securing a mobility device is limited to attaching no more than two attachment members to secure the mobility device within the vehicle.

In another preferred embodiment, the invention comprises a method for securing a mobility device having a first device securement element and a second device securement element, within a vehicle having a wall side and an aisle side. The method includes the steps of attaching a first attachment member to a first device securement element of the mobility device; attaching a second attachment member to a second device securement element of the mobility device; activating a tensioning system that is connected to at least one of the first and second attachment members for imposing a tensile force thereupon; and moving a moveable bumper to apply a force against a side of a mobility device—in which the method for securing a mobility device is limited to attaching no more than two attachment members to secure the mobility device within the vehicle.

In yet another preferred embodiment, the method includes moving a second moveable bumper to apply a force against a side of a mobility device. In yet another preferred embodiment, the second moveable bumper is moved to a position that is different from the first moveable bumper. In still another preferred embodiment, the method further comprises activating a second tensioning system connected to at least one of the first and second attachment members for imposing a tensile force thereupon. In yet another preferred embodiment, the method further comprises deploying a vehicle anchor assembly that is stored at a stowed preliminary position, that is substantially flush to the floor of the vehicle. In another preferred embodiment, the method further comprises attaching at least a portion of a vehicle anchor assembly to a mount or fitting that is positioned within the floor of the vehicle, and attaching the portion to at least one of the first and second attachment members.

In still another preferred embodiment, the method further comprises rotating a rear barrier about an axis, or articulating a rear barrier in a downward direction. In yet another preferred embodiment of the invention, the method further comprises moving a rear barrier in a forward or backward direction, to move it closer, or in contact with, the mobility device. In yet another preferred embodiment, the bumper is moved to apply an angularly downward force upon the mobility device. Alternatively, the bumper can articulate to apply a suitable, stabilized force (coplanar or otherwise) against a mobility device that is secured in a skewed position relative to the wall side of the vehicle.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a mobility securement system of the present invention, with two moveable side bumpers, showing a wheelchair secured therewithin.

FIG. 2 is an elevated side view of another embodiment of a mobility securement system of the present invention, with one moveable side bumper, and a wheelchair secured therewithin.

FIG. 3 is a top plan view of the mobility securement system of FIG. 1, showing placement of the deployed side bumpers securing a wheelchair therewithin.

FIG. 4 is a perspective view of the mobility securement system of FIG. 1, used to secure a motorized mobility device having a different design from the wheelchair shown in FIG. 1.

FIG. 5 is a top plan view of the mobility securement system of FIG. 1, used to secure a motorized mobility device having a different shape from the wheelchair shown in FIG. 1, showing the different extensions employed by the moveable bumpers to secure the motorized mobility device within the system.

FIG. 6 is a top plan view of another embodiment of a mobility securement system of the present invention, with a single side bumper attached to the bus wall, and a rear barrier that includes two fold down seats, which seats are available to ambulatory passengers when the mobility securement system is not in use. A wall mounted, longitudinal flip up seat may be installed over the bumper assembly.

FIG. 7 is an elevated side view of the mobility securement system of FIG. 6.

FIG. 8 is a perspective view of another embodiment of the present invention, with a single moveable side bumper attached to the bus wall, and a telescopic vehicle anchor assembly that is stored within the bus floor, shown when the mobility securement system is not in use.

FIG. 9 is a perspective view of the mobility securement system of FIG. 8, in which the telescopic vehicle anchor assembly is shown in a deployed position, ready for attachment to a mobility device or other mobility device.

FIG. 10 is a perspective view of the mobility securement system of FIG. 2, shown without a mobility device secured therein.

FIG. 11 is a top plan view of the mobility securement system of FIG. 2, shown with a single, articulated moveable bumper, such that one side of the moveable bumper extends further than the other side.

FIG. 12 is a top plan view of the mobility securement system of FIG. 2, shown with a single, articulated moveable bumper, such that one side of the moveable bumper extends further than the other side, with which a mobility device positioned at a skewed angle can be secured relative to the vehicle.

FIG. 13 is a top plan view of the mobility securement system of FIG. 2, shown with the one moveable bumper articulated, such that one side of the moveable bumper extends further than the other side, and a wheelchair secured at a skewed angle relative to the vehicle, in which an occupant is shown secured therewithin. This figure also shows the occupant shoulder belt partially deployed.

FIG. 14 is a top plan view of another embodiment of a mobility securement system of the present invention, with one articulated moveable side having different structures for extending each side of the moveable bumper, including one air spring and one scissors support.

FIG. 15 is a close-up perspective view of the scissors support assembly shown in the embodiment of the invention disclosed in FIG. 14.

FIG. 16 is a top plan view of the mobility securement system of FIG. 1, showing the two side bumpers in their stored positions.

FIG. 17 is a top plan view of another embodiment of a mobility securement system of the present invention, in which two extendable and articulatable side bumpers utilize different structures for extension of each, one via air spring and one via scissors support.

FIG. 18 is a top plan view of another embodiment of a mobility securement system of the present invention, with two moveable side bumpers, each having a scissors support.

FIG. 19 is a top plan view of another embodiment of a mobility securement system of the present invention, with two moveable side bumpers, each having a two-bar extendible support.

FIG. 20 is a top plan view of the mobility securement system of FIG. 1, used to secure a motorized mobility device having uneven surfaces, in which each of the two moveable bumpers can be extended to a different length, and in which one of the moveable bumpers is shown articulated to contact the uneven surface of the motorized mobility device.

FIG. 21 is an elevated front view of another embodiment of the present invention, showing a moveable bumper that extends and applies an angularly downward force upon the mobility device.

FIG. 22 is an elevated front view of another embodiment of the present invention, showing a moveable bumper that both extends and articulates downwardly, to apply an angularly downward force upon the mobility device.

FIG. 23 is an elevated front view of a rear barrier and shoulder occupant seat belt assembly used in the present invention.

FIG. 24 is a perspective view of the rear barrier and shoulder occupant seat belt assembly disclosed in FIG. 23.

FIG. 25 is an elevated front view of another rear barrier and shoulder occupant seat belt assembly used in the present invention, with the rear barrier having two fold-away seats.

FIG. 26 is a perspective view of the rear barrier and shoulder occupant seat belt disclosed in FIG. 25.

FIG. 27 is a perspective view of another embodiment of the mobility securement system of the present invention, with one moveable side bumper, and one moveable rear barrier bumper.

FIG. 28 is a top plan view of the embodiment of the invention disclosed in FIG. 27.

FIG. 29 is a perspective view of another embodiment of the present invention, in which the rear barrier is configured to swivel about either or both of a vertical or horizontal axis, to contact a mobility device or other securement device at a skewed angle.

FIG. 30 is a top plan view of the embodiment of the invention disclosed in FIG. 29.

FIG. 31 is a top plan view of another embodiment of the present invention, in which the rear barrier is configured to translate forwards and backwards, to contact a wheelchair or other mobility device.

FIG. 32 is another top plan view of the embodiment of the invention disclosed in FIG. 31, shown with the rear barrier translated to its forward position.

FIG. 33 is a perspective view of another embodiment of the present invention, showing a fitting for a removable vehicle anchor assembly that is stored remotely, shown when the mobility securement system is not in use.

FIG. 34 is a perspective view of the embodiment of the invention disclosed in FIG. 33, showing the removable vehicle anchor assembly attached and ready for use.

DETAILED DESCRIPTION OF THE INVENTION

While this invention is capable of embodiment in many different forms, there is shown and described in the drawings and associated text, specific embodiments, with the understanding that the present disclosure is to be considered an exemplification of the principles of the invention and is not intended to limit the invention to the embodiments illustrated.

The following description and drawings are illustrative and are not to be construed as limiting. Numerous specific details are described herein to provide a thorough understanding of the disclosure. However, in certain instances, well-known or conventional details may not be described in order to avoid obscuring the description. References to one, or an, embodiment in the present disclosure can be, but not necessarily are, references to the same embodiment; and, such references mean at least one of the embodiments.

Reference in this specification to “one embodiment” or “an embodiment” means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the disclosure. The appearances of the phrase “in one embodiment” in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Moreover, various features are described which may be exhibited by some embodiments and not by others. Similarly, various requirements are described which may be requirements for some embodiments, but not for other embodiments.

The terms used in this specification generally have their ordinary meanings in the art, within the context of the disclosure, and in the specific context where each term is used. Certain terms that are used to describe the disclosure are discussed below, or elsewhere in the specification, to provide additional guidance to the practitioner regarding the description of the disclosure.

It will be appreciated that same thing can be said in more than one way. Consequently, alternative language and synonyms may be used for any one or more of the terms discussed herein, nor is any special significance to be placed upon whether or not a term is elaborated or discussed herein. By way of example only, the drawings submitted herewith depict the mobility securement system of the present invention as installed in a bus, although it is to be understood that the mobility securement system can be used in any vehicle. Likewise, the terms wheelchair and mobility device may be used interchangeably herein, with the understanding that a mobility device can include a wheelchair, or a three or four-wheeled scooter device. Synonyms for certain terms are provided. A recital of one or more synonyms does not exclude the use of other synonyms. The use of examples anywhere in this specification, including examples of any terms discussed herein, is illustrative only, and in no way limits the scope and meaning of the disclosure or of any exemplified term. Likewise, the disclosure is not limited to various embodiments given in this specification.

For purposes of this detailed description, it is envisioned that in one example of use of the invention, a mobility device and its occupant are secured facing forward inside a vehicle. This invention may also be used with both the mobility device and its occupant secured in a rearward facing position. As shown in the some of the Figures, the area where a mobility device occupant may be secured, otherwise contains seating for normally four or five able-bodied passengers but this area may contain more or less seats. One or more seat benches may be flipped up by the attendant of the mobility securement system (most often the bus driver), to reveal a mobility securement system therewithin. The mobility securement system is used to secure the mobility device and its occupant for travel. After the passenger has arrived at his or her destination, the attendant must release the mobility device and its occupant from the mobility securement system. While a mobility device is often described in association with the embodiments of the invention, it should be appreciated that the embodiments are also applicable to other mobility devices, including motorized wheelchairs and mobility scooters. This description is not meant to limit the scope of the claims, but rather to describe one embodiment of the invention.

The present mobility securement system preferably utilizes just two attachment members, rather than three or four. A first attachment member is secured to a device securement element located at or near the front of the mobility device, and a second attachment member is secured to a device securement element located at or near the rear of the mobility device. The first vehicle attachment assembly is operably attached to a first vehicle anchor assembly that is affixed to the vehicle. A second vehicle attachment assembly is likewise operably attached to a second vehicle anchor assembly that is also affixed to the vehicle.

A device securement element is preferably part of the mobility device frame but may be any element of the mobility device or mobility device capable of accepting attachment, including but not limited to, a wheel axle, a front or rear vertical support member, a securement loop, a wheel, a handle or a seat. In the case of a mobility device having only a center wheel, the device securement element would be a securement loop that is typically provided on the front of the device.

A vehicle anchor assembly often includes a tensioning assembly, which may be located within another structure, such as a rear barrier, side wall member, flip up seat frame, etc. Alternatively, a vehicle anchor assembly may be co-located in a structure with the tensioning assembly integrated therewithin. In a preferred embodiment of the invention, each vehicle anchor assembly is located at or near diagonally opposite corners from each other. In a preferred configuration that is less obtrusive to the bus and other passengers, the first vehicle anchor assembly is located along the wall side of the vehicle, near a front corner of the mobility device. The second vehicle anchor assembly may be located within a rear barrier, or underneath a seat which extends towards the aisle, or within the floor of the vehicle.

The attachment members may be belts, chains, straps or cables, and may further include hooks. Attachment members are also referred to herein as attachments. Each attachment member or vehicle anchor assembly may be operably connected to at least one tensioning mechanism. In a preferred embodiment of the invention, the vehicle anchor assemblies contain spring-based retractors. The retractors provide a tension to the belts or cables, as powered by the springs therein. Furthermore, such retractors may further contain actuation devices which allow for springs to become temporarily disengaged. This mode is helpful for the attendant to attach and detach the attachment points while the cables or belts are not under tension. The actuation devices are typically operated electrically; when charged with electricity the actuator disengages the connection to the springs inside the retractor. When electricity is removed from the actuator, the springs are reengaged, and tension is reapplied. Actuation could also be done pneumatically, mechanically, hydraulically or by other means. Thus, tension may be applied and disengaged remotely.

Each attachment member or vehicle anchor assembly may also be operably connected to a supplemental tensioning mechanism. Supplemental tensioning means may be mechanical, by means of a lever attached to gears and/or a ratcheting wrench located near the tensioning mechanism. Other methods that are known in the art include electric, hydraulic and pneumatic means for providing additional tension. Controls for the supplemental tensioning system may be located locally, or remote therefrom.

It is further contemplated that a mobility securement system includes an occupant seatbelt. It should be noted, however, that occupant seatbelts are not attachment points, as they are used to secure the disabled passenger in the vehicle, and do not act to independently secure the mobility device from movement with the vehicle. Indeed, the ADA regulations require a seat belt in addition to, and not in lieu of, a mobility securement system.

While the mobility securement system of the present invention may contain more than two attachment members or two vehicle anchor assemblies, it has been discovered that only two may be necessary, when used in combination with one or more bumpers of the present invention. The one or more bumpers may be fixed or moveable. In particular, and in cooperation with the other structural features and mode of operation, the bumpers of this invention have been shown to obviate the need for a third attachment member or vehicle anchor assembly. That is because the one or more bumpers act as both a bumper and a tensioning force in a direction that may have previously only been secured through use of an attachment member or vehicle anchor assembly. The positioning and operation of the one or more bumpers, when correctly positioned in relation to the two attachment members and vehicle anchor assemblies, act in concert with them to prevent movement of the wheelchair or mobility device by more than two inches in any direction during the normal operation of a vehicle. While a moveable bumper of the present invention may secure a mobility device and its occupant with less effort by the operator, a fixed bumper may also be used with the present invention. Furthermore, having only two attachment members and vehicle anchor assemblies significantly reduces the time that is required to attach and detach a passenger from the mobility securement system. Another advantage of the present invention, is its ability to secure a variety of wheelchairs or mobility devices of different shapes, at angles that may be skewed, such that the operator of the mobility securement system need not place the wheelchair or mobility device in any particular position or angle in order to be properly secured for transport.

The bumpers may be fixed or moveable. The fixed bumpers associated with the present invention are positioned to secure the mobility device, in concert with no more than the two attachment members and vehicle anchor assemblies of the present invention.

The moveable bumpers associated with the present invention may extend from a fixed or moveable barrier, a wall or a location underneath a seat, to apply a force against the wheelchair or mobility device. If one moveable bumper is used, it should be located alongside the outer wall, or the window side, of the vehicle. If more than one bumper is used, the second moveable bumper may be located on the same side as the first moveable bumper, or on an adjacent side that may be in a perpendicular orientation to the first side. For example, the second moveable bumper may extend from a fixed barrier located behind the wheelchair or mobility device. A second moveable bumper is especially advantageous when accommodating different sizes and types of mobility devices. Even when the moveable bumpers are each located on the same side, it has been found that the bumpers have the capacity to apply tensioning forces in multiple directions. Furthermore, the moveable bumpers may tilt, or articulate, from side to side, or downward, to provide force against an uneven surface, or to two separate points of a mobility device. An articulating bumper also allows a mobility device to be secured, that may not be substantially parallel to the bus wall, thus reducing the amount of time and effort required in securement. A downward force has also been found to be useful in providing additional stability in securing a wheelchair or other mobility device, especially preventing the mobility device from tipping over. The surface of the moveable bumper in contact with the mobility device may be neoprene, or such other material that can provide a high coefficient of friction when pressed against the mobility device.

Various structures may be utilized in association with the moveable bumpers, which may be powered by several different ways, including air springs, and mechanical supports in a scissors, two bar, four-bar or other configurations. Air springs may be powered by pneumatic or electromechanical means. The moveable bumpers or barriers may be also be powered by hydraulic means. In the case of pneumatic means, compressed air from either a compressed gas tank or an air compressor fills the air spring to provide a force against the mobility device, which may likewise be released when the bumper is retracted. A spring may be used to keep the bumper in place when not in use. In case of electromechanical means, an electric motor may be used to move the bumper into place, as well as place an active force upon the mobility device. The electric motor may be a screw-type motor, that moves the supports for the bumpers, or in the case of a scissors configuration, may move both supports at the same time through movement of a central pivot. Conversely, a motor may move just one support, or the two supports unevenly, to both articulate the bumper and create a force against the mobility device. A bumper may also articulate through the use of pneumatic means, wherein the bumper support includes separate pneumatic chambers for each side of the bumper. Alternatively, the support may contain only one pneumatic chamber, and further allow the bumper to articulate after it makes contact with one surface. This is done through use of a flexible air spring, such that when one side of the bumper makes contact with a surface, the non-contacting portion of the bumper will continue to extend in an articulating manner, until it makes contact with another surface.

Another embodiment of the present invention in which the bumper may articulate, includes a means for sensing when one surface of a moving bumper makes contact with the surface of the mobility device; at which point the side of the bumper that had not made contact is allowed to move unevenly, or articulate, to contact a second surface. Means for sensing include pressure sensors, optical sensors, force-resistance sensors or other sensor types. Once contact is made, the bumper applies an active force against the mobility device, at a predetermined force. A moveable bumper may extend directly from a bus wall, underneath a fold-down seat, or from a rear barrier. A moveable bumper may also swing or pivot from a stored position, to apply a force against the wheelchair or mobility device.

There may also be a fixed, rear barrier located behind the wheelchair or mobility device. In addition to storing the second attachment member and vehicle anchor assembly at a location closest to the rear, aisle side of the mobility device, and possibly including a moveable bumper, the fixed barrier may also provide support to the mobility device, in case of a rearward force from sudden acceleration.

The rear barrier may also be moveable. In different embodiments of the invention as discloses herein, the barrier may rotate, or swivel, about an axis. The barrier may translate forwards and backwards. The moveable barrier may also articulate downwards. Furthermore, the barrier may also include a moveable bumper, as discussed herein.

The type, shape and configuration of the mobility securement system, the attachment points, and the fixed and moveable bumpers and barriers are described in association with the embodiments disclosed in FIGS. 1-56. It should be appreciated that other embodiments of the invention include combinations of disclosed elements, whose combination is not specifically disclosed in the Figures herein.

One method for securing a mobility device and its passenger into the mobility securement system of the claimed invention, is to position the mobility device against a bumper. Then, a first attachment member is attached to a first securement device on the mobility device, and then a second attachment member is attached to a second securement device on the mobility device. Next, one or more tensioning systems may be activated. Finally, supplemental tensioning, if any, is applied.

Another method for securing a mobility device and its passenger into the mobility securement system of the claimed invention, is to attach a first attachment member to a first securement device on the mobility device, and then to attach a second attachment member to a second securement device on the mobility device. Then, one or more tensioning systems may be activated. Next, supplemental tensioning, if any, is applied. Finally, at least one moveable bumper is moved to apply an active force against the mobility device. As noted herein, a moveable bumper may articulate to apply a force against two points of the mobility device that are located at different distances from the wall side of the vehicle, or apply a force against a surface of the mobility device that is not coplanar with the wall side or the aisle side of the vehicle. A method according to an embodiment of the present invention with a moveable barrier, is to translate, swivel, articulate or otherwise move the rear barrier such that it comes into contact with the mobility device.

With regard to drawing FIGS. 1 through 56, Applicant's invention is described as follows:

In one embodiment of the present invention, two moveable bumpers are utilized, each positioned to the side of the wheelchair or mobility device. FIG. 1 shows a perspective view of this embodiment, mobility securement system 40 having two moveable bumpers (only first moveable bumper 50 is visible) located to the side of mobility device 52, underneath flip seat 54. Flip seat 54 comprises underneath surface 53, seat bottoms 55 and seat backs 57. Mobility device 52 is secured to mobility securement system 40 using front attachment member 56 and rear attachment member 58. Front attachment member 56 includes front hook 60; while rear attachment member 58 includes rear hook 61. Each of front hook 60 and rear hook 61 may attach to a device securement element, including an axle, such as rear axle 65, or to a support member of mobility device 52, such as front mobility device support member 63, or a hook, a bracket or a securement loop, such as securement loop 76 of FIG. 4. As shown, front hook 60 is attached to front mobility device support member 63, and rear hook 61 is attached to rear axle 65. Rear barrier 62 contains rear attachment member 58, occupant seat belt female component 64 (only the female portion is shown in FIG. 1), rear barrier surface 66, and other elements that are not shown, including a tensioning mechanism, supplemental tensioning, and controls therefor.

In this embodiment, mobility device 52 is close to, but does not abut, rear barrier surface 66 of rear barrier 62, as secured by rear attachment member 58, which emanates from a vehicle anchor assembly within barrier 62. Front attachment member 56 is connected to vehicle anchor assembly 68, which comprises a tensioning system that may include a spring-based retractor capable of remote actuation, and a supplemental tensioning system to provide further tension to front attachment member 56. Control lever 70 may be used to actuate, or otherwise control or enhance the applied force of the tensioning system, and supplemental tensioning system, which may be located in vehicle anchor assembly 68. Vehicle anchor assembly 68 may further include a timer assembly operably connected to an on/off switch and one or more tensioning systems, that allows the operator to attach one or more belts to the mobility device while the belts are not under tension. When the timer assembly finishes its timed cycle, the belts are automatically tensioned and locked, preventing further spooling of the belt from vehicle anchor assembly 68. Also shown is bus wall 59 and bus aisle 69. First moveable bumper 50 contacts front wheel 67 of mobility device 52, and applies a force thereupon. The mobility securement system further includes shoulder occupant seat belt 72.

In another embodiment of the invention, only one side bumper is utilized. FIG. 2 is a side elevation of mobility securement system 41, with one moveable bumper 80, located to the side of mobility device 52, and underneath flip seat 54. The mobility device 52 is secured to the mobility securement system 41 using front attachment member 56 and rear attachment member 58, which are connected to front hook 60 and rear hook 61. Each of front hook 60 and rear hook 61 are attached to an axle or support member of mobility device 52, as shown in FIG. 1. Rear barrier 62 contains rear attachment member 58, occupant seat belt female component 64, occupant seat belt male component 71 (not shown), and other elements that are not shown, including a tensioning mechanism, supplemental tensioning, and controls therefor. Front attachment member 56 is connected to vehicle anchor assembly 68, which may include a spring-based retractor capable of remote actuation, and a supplemental tensioning system to provide further tension to front attachment member 56. Control lever 70 may be used to actuate, or otherwise control the tensioning system, and supplemental tensioning system, which may be located in vehicle anchor assembly 68. Moveable bumper 80 contacts the side of mobility device 52, and applies a force thereupon emanating from underneath surface 53 of flip seat 54 and seat back 57. The mobility securement system 41 further includes shoulder occupant seat belt 72. Also shown is bus wall 59.

FIG. 3 shows a plan view of mobility securement system 40, that is disclosed in FIG. 1. In this view, it is possible to see first moveable bumper 50 and second moveable bumper 51, each in contact with different surfaces of mobility device 52. First moveable bumper 50 is in contact with the recessed front wheel of mobility device 52, whose surface is not coplanar with the larger, rear wheel of mobility device 52, which is in contact with second moveable bumper 51. Thus, first moveable bumper 50 is extended further from the bus wall than second moveable bumper 51—each applying a force against a surface of mobility device 52. Also shown in FIG. 3 are flip seat 54, seat bottom 55, seat back 57, front attachment member 56, rear attachment member 58, front hook 60, rear hook 61, rear barrier 62, occupant seat belt female component 64, occupant seat belt male component 71, shoulder occupant seat belt 72, rear axle 65 of mobility device 52, front wheel 67, vehicle anchor assembly 68, control lever 70, bus wall 59 and bus aisle 69.

FIG. 4 shows a perspective view of mobility securement system 40 of FIG. 1, securing motorized mobility device 73 having larger front wheels 74 and smaller, recessed rear wheels 75—an opposite configuration to the wheels of mobility device 52 depicted in FIG. 1. In this embodiment, front attachment member 56 is secured to motorized mobility device 73 by use of a front hook 60 through first securement loop 76, which is typically provided as part of motorized mobility device 53. Likewise, rear attachment member 58 is secured to motorized mobility device 53 by use of rear hook 61 through second securement loop 77. Also shown in FIG. 4 are flip seat 54, rear barrier 62, occupant seat belt female component 64, shoulder occupant seat belt 72, vehicle anchor assembly 68, control lever 70, bus wall 59, bus aisle 69, and motorized mobility device side portion 78.

FIG. 5 shows a plan view of mobility securement system 40, as disclosed in FIG. 1, securing motorized mobility device 73, as shown in FIG. 4. In this view, it is possible to see first moveable bumper 50 and second moveable bumper 51, each in contact with different surfaces of motorized mobility device 73. First moveable bumper 50 is in contact with the larger front wheel 74 of motorized mobility device 73, whose surface is not coplanar with the smaller, rear guide wheel 75, or the side portion 78 (not visible) of motorized mobility device 73 that is in contact with second moveable bumper 51. Thus, second moveable bumper 51 is extended farther from bus wall 59 than first moveable bumper 50—each applying a force against a different, non-coplanar surface of motorized mobility device 73. Also shown in FIG. 5 are flip seat 54, seat bottom 55, seat back 57, front attachment member 56, front hook 60, first securement loop 76, vehicle anchor assembly 68, control lever 70, rear barrier 62, occupant seat belt female component 64, occupant seat belt male component 71, shoulder occupant seat belt 72, rear attachment member 58, rear hook 61, second securement loop 77, bus wall 59 and bus aisle 69.

FIG. 6 shows a plan view of another embodiment of the present invention, having one moveable bumper that is not underneath a flip-down seat. Mobility Securement System 42 includes bumper 90, which is connected to first support 91 and second support 92. First support 91 is connected to base 93, and second support 92 is connected to base 94. In one embodiment of the invention, bumper 90 is a fixed bumper. In another embodiment of the invention, bumper 90 is a moveable bumper. In the embodiment of the invention where bumper 90 is a moveable bumper, each of first support 91 and second support 92 may be capable of movement independent of the other support. In this embodiment, bases 93 and 94 contain the means to extend or articulate each of supports 91 and 92 respectively, and are each secured to bus wall 95. Also shown is front attachment 96, front hook 97, vehicle anchor assembly 98, control lever 99 and base 100 for vehicle anchor assembly 98, which is attached to bus wall 95. In the embodiments shown in FIG. 6, there are no flip down seats above the bumper. However, rear barrier 102 contains flip down seat 103 to accommodate two people when the system is not in use. Also shown are seat back 104, underneath surface 105 of flip down seat 103, rear attachment member 107, rear hook 108, occupant seat belt female portion 109, occupant seat belt male portion 110, shoulder occupant seat belt 111 and bus aisle 112. FIG. 7 shows a side elevation view of mobility securement system 42 depicted in FIG. 6.

FIG. 8 shows a perspective view of another embodiment of the present invention, without any flip-down seats or a rear barrier at all. Mobility securement system 43 includes moveable bumper 120, first support 121, second support 122, first support base 123, second support base 124, front attachment member 126, front hook 127, vehicle anchor assembly 128, control lever 129, front tensioning system base 130, vehicle anchor assembly 131, rear module control 136, male occupant seat belt 132, protective housing 133 and shoulder occupant seat belt 134. Also shown are bus wall 125 and bus aisle 135. The rear attachment, female portion of occupant seat belt, tensioning system and associated controls are contained within vehicle anchor assembly 131, shown in the stored position flush with the bus aisle 135. FIG. 9 depicts a perspective view of mobility securement system 43 shown in FIG. 8, in a deployed position, ready to secure a wheelchair or mobility device. In this position vehicle anchor assembly 131 is raised to reveal rear attachment 137, rear hook 138, rear tensioning system 139 and the female occupant seat belt 140.

FIGS. 10 and 11 depict mobility securement system 41, as shown in FIG. 2, without any wheelchair or mobility device secured therein. Referring to FIG. 11, moveable bumper 80 is shown in an extended position, and includes contact surface 81, which has front portion 81A and rear portion 81B. Front portion 81A is extended farther from bus wall 59 than rear portion 81B. This causes moveable bumper 80 to be tilted, or articulated, such that its surface 81 may contact an angled or uneven surface of a wheelchair or mobility device, or two different surfaces that are not coplanar. Also shown in FIGS. 10 and 11 are flip down seat 54, underneath surface 53, seat back 57, front attachment member 56, front hook 60, vehicle anchor assembly 68, control lever 70, rear barrier 62, rear attachment member 58, rear hook 61, occupant seat belt female component 64, occupant seat belt male component 71, shoulder occupant seat belt 72 and aisle 69.

The benefits of this embodiment become more evident in FIG. 12, which shows a mobility device being secured therein. The mobility device 52 is secured at an angle, relative to the vehicle. Rear attachment member 58 is connected to mobility device 52, and acts to pull it towards rear barrier 62. Because there is only one rear attachment member 58, it is not necessary to have mobility device 52 secured in alignment with rear barrier 62. Thus, a mobility device may be secured in a skewed position. Moveable bumper 80 extends and articulates to contact both the mobility device rear wheel 82 and mobility device front wheel 83, which are not coplanar, and which are not parallel to bus wall 59. Front portion 81A of moveable barrier surface 81 is in contact with front wheel 83 of mobility device 52, while rear portion 81B is in contact with rear wheel 82 of mobility device 52. Moveable bumper 80 is further articulated to adjust to the skewed angle of mobility device 52. FIG. 13 shows a plan view of the same embodiment disclosed in FIG. 12, with an occupant 84 secured in the mobility device.

FIG. 14 depicts a configuration similar to FIG. 12, but shows two different structures which may be used in association with mobility securement system 44. In this embodiment, moveable bumper 140 contains a contact surface 143, having a front portion 143A and a rear portion 144B. Moveable bumper 140 is connected to first support 141 and second support 142. First support 141 comprises two bars in a scissors configuration; second support 142 comprises an air spring. Each of first support 141 and second support 142 are capable of independent movement, and thus front portion 143A of contact surface 143 may be extended farther from bus wall 59 in comparison to rear portion 143B, forming a skewed contact angle for contact surface 143 of moveable bumper 140.

FIG. 15 shows a close-up view of one of the support structures, support bars in a scissors configuration, of the embodiment shown in FIG. 14. Scissors support 141 comprises stationary bar 146 and sliding bar 147, which are each attached to support base 144. Support base 144 includes frame support 145 for a seat back and flip down seats, and further includes a means to move sliding bar 147. Pin 148 keeps each of stationary bar 146 and sliding bar 147 in a scissors position. Pin 149 keeps stationary bar 146 in a stationary position relative to track 150. When sliding bar 147 is moved, it moves sliding member 151, which slides along track 150. This movement allows moveable bumper 140 to extend and retract relative to base 144.

As shown in FIGS. 16-20, the supports for moveable bumpers may be of different structures, in different combinations, and may each extend, and in some cases, may articulate, to provide a different contact angle. FIG. 16 shows mobility securement system 40 disclosed in FIGS. 1 and 3. Each of moveable bumpers 50 and 51 are in a recessed position. Each of first support 161 and second support 162 are air springs. As shown in FIG. 17, mobility securement system 45 comprises first moveable bumper 171 and second moveable bumper 172, which are attached to first support 173 and second support 174, respectively. First support 173 comprises support bars in a scissors configuration, while second support 174 is an air spring. First moveable bumper 171 is shown in an extended position. FIG. 18 shows mobility securement system 46, which includes first moveable bumper 181 and second moveable bumper 182, which are attached to first support 183 and second support 184, respectively. Each of first support 183 and second support 184 include support bars in a scissors configuration. First support 183 is extended such that first moveable bumper 181 is farther from bus wall 59, relative to second moveable bumper 182.

As shown in FIG. 19, mobility securement system 47 includes first moveable bumper 191 and second moveable bumper 192, which are attached to first support 193 and second support 194, respectively. Each of first support 193 and second support 194 comprise support bars in a two bar configuration, with each of the two bars being able to move independent from one another. This allows each of first moveable barrier 191 and second moveable barrier 192 to extend away from bus wall 59, and also at different angles. Furthermore, the angle at which first moveable bumper 191 is articulated may not be the same angle at which second moveable bumper 192 is articulated. An advantage of this independent movement of each moveable bumper, and the bumpers' ability to articulate its contact angle, is evident in FIG. 20. First moveable bumper 50 and second moveable bumper 51 are connected to first supports 201 and second support 202, respectively, which are each air springs. First moveable bumper 201 is extended to meet the surface of front wheel 74 of motorized mobility device 73. Second moveable bumper 202 is both extended and articulated to meet the surfaces of rear wheel 75 and side portion 78 (not shown) of motorized mobility device 73. Notably, rear wheel 75 and side portion 78 are not coplanar. This arrangement provides for additional securement of motorized mobility device 73, with forces from multiple directions, applied to different areas.

FIGS. 21 and 22 show different ways a moveable bumper may apply a downward force against a wheelchair or mobility device. As shown in FIG. 21, moveable bumper 210 is used to secure mobility device 52, by contact with front wheel 67, in position of moveable bumper 210′. Moveable bumper 210′ meets front wheel 67 at angled wheel contact surface 213, such that moveable bumper 210′ applies a downward force upon front wheel 67. The downward force offers additional stability to secure mobility device 52 against movement. The angle at which moveable bumper 210 contacts front wheel 67, at position 210′, is fixed. Moveable bumper 210 is connected by support 212 to base 211. In this embodiment, base 211 is mounted at an angle, such that when support 212 extends, without articulation, moveable bumper 210 in position 210′ contacts front wheel 67 at an angle. In contrast, FIG. 22 shows mobility device 52 being secured by moveable bumper 220, which contacts front wheel 67 at angled wheel contact surface 223, at the same angle as shown in FIG. 21. However, in contrast to base 211, which is mounted at an angle, as shown in FIG. 21, base 221 in FIG. 22 is mounted in a position that is vertical and parallel to bus wall 59. Moveable bumper 220 contacts front wheel 67 in position 220′ at an angle, due to the articulation caused by support 222. As shown in FIG. 22, support 222 articulates moveable bumper 220 through the support members' uneven extension from base 221.

FIGS. 23-26 show different rear barriers that may be used in association with the present invention. As shown in FIGS. 23 and 24, rear barrier 62 comprises vehicle anchor assembly 230 having contact surface 66. Rear barrier 62 further comprises partition 231, first support legs 232, second support leg 233, rear attachment member 58, occupant seat belt female component 64, occupant seat belt male component 71, and shoulder occupant seat belt 72. Control knob 234 controls the tensioning system that is contained within rear barrier 62, as well as any supplemental tensioning system that may also be contained therewithin. Rear barrier 250 shown in FIGS. 25 and 26 includes the same features of vehicle anchor assembly 230 shown in FIGS. 23 and 24. In addition, rear barrier 250 comprises flip down seat 251 having an underneath surface 253. Rear barrier 250 further includes seat back 252 and control knob 254.

The rear barrier may further include a moveable bumper, or it may itself move. As shown in FIGS. 27 and 28, rear barrier 270 may further include rear moveable bumper 278, the structures and capabilities of which are explained earlier in association with other moveable bumpers of the present invention. As shown in FIG. 27, rear barrier 270 includes partition 271, vehicle anchor assembly 272, support leg 273, rear attachment 274, rear hook 275, occupant seat belt female component 276, occupant seat belt male component 277 and rear moveable bumper 278. Rear moveable bumper 278 may extend to apply a force upon the rear of a wheelchair or other mobility device.

As shown in FIGS. 29 and 30, mobility securement system 48 includes rear barrier 290, which is comprised of partition 291 and vehicle anchor assembly 292. It is supported by rotating support member 293, and locking handle 294, which allows rear barrier 290 to rotate about pivot axle 299 (FIG. 30), and then lock into place, such that it can contact the rear of a wheelchair or mobility device that may be skewed at an angle. Vehicle anchor assembly 292 includes rear attachment 295, rear hook 296, occupant seat belt female component 297 and occupant seat belt male component 298. Barrier 290 can likewise be constructed to pivot forwardly along a pivot axle at control 300.

As shown in FIG. 31, mobility securement system 48 includes rear barrier 310, which includes track 311, and vehicle anchor assembly 312. Vehicle anchor assembly 312 includes rear attachment 315, rear hook 316, occupant seat belt female component 317 and occupant seat belt male component 318. Rear barrier 310 may translate forwards and backwards along track 311, to contact a mobility device or mobility device that may be secured in different positions. As shown in FIG. 32, rear barrier 310 may translate forwards along track 311 into a different position shown as rear barrier 310′. Also shown in FIG. 32 are vehicle anchor assembly 312′, which includes rear attachment 315′, rear hook 316′, occupant seat belt female component 317′ and occupant seat belt male component 318′.

FIG. 33 depicts a perspective view of mobility securement system 43′, which is similar to mobility securement system 43 shown in FIG. 8. In this embodiment of the invention, solo fitting 330, here an anchor restraint fitting, is positioned within the bus floor. As an alternative to solo fitting 330, a slide and click fitting, or bayonet mounting system, may alternatively be used. Removable vehicle anchor assembly 331, of FIG. 34, may then be operably attached thereto, when mobility securement system 43′ is in use.

The foregoing description and drawings merely explain and illustrate the invention, and the invention is not limited thereto, except as those skilled in the art who have the present disclosure before them will be able to make modifications and variations therein without departing from the scope of the invention. 

What is claimed is:
 1. A mobility securement system for securing a mobility device having a first device securement element and a second device securement element, within a vehicle having a wall side and an aisle side, the mobility securement system comprising: a first vehicle anchor assembly configured to be affixed to said vehicle and adapted to be positioned substantially proximate to one of the front and rear of said mobility device and adapted to be positioned substantially proximate to one of the wall side and the aisle side of said mobility device; a first attachment member capable of being operably attached between said first vehicle anchor assembly and said first device securement element so as to restrain the position of said mobility device within said vehicle; a second vehicle anchor assembly configured to be affixed to said vehicle and adapted to be positioned substantially proximate to the other of the front and rear of said mobility device and adapted to be positioned substantially proximate to the other of the wall side and the aisle side of said mobility device; a second attachment member capable of being operably attached between said second vehicle anchor assembly and said second device securement element so as to restrain the position of said mobility device within said vehicle; at least one of said first vehicle anchor assembly, second vehicle anchor assembly, first attachment member and second attachment member being operably connected to a tensioning assembly for imposing a tensile force thereupon; and a bumper capable of applying a force against said mobility device; said first and second vehicle anchor assemblies configured to restrain the mobility device, in conjunction with said bumper, along a diagonal axis extending between said first device securement element and said second device securement element, said mobility securement system being limited to no additional attachment members beyond said first and second attachment members, to secure the mobility device within said vehicle.
 2. The mobility securement system of claim 1, wherein the first vehicle anchor assembly is adapted to be proximate to a front wall side adjacent to the mobility device; and the second vehicle anchor assembly is adapted to be proximate to a rear aisle side adjacent to the mobility device; said first and second vehicle anchor assemblies are capable of restraining the mobility device, in conjunction with said bumper, along a diagonal linear axis extending between a front wall side portion and a rear aisle side portion of the mobility device.
 3. The mobility securement system of claim 1, wherein the bumper is moveable.
 4. The mobility securement system of claim 3, wherein the bumper is configured to extend from proximate to the wall side of the vehicle.
 5. The mobility securement system of claim 3, wherein the bumper comprises a single bumper that is configured to articulate to in turn apply a force against at least two points of the mobility device, which points are located at different distances from the wall side of the vehicle.
 6. The mobility securement system of claim 3, comprising two bumpers that are each capable of extending to apply a force against the mobility device.
 7. The mobility securement system of claim 6, wherein the two bumpers are each adapted to be located proximate to the wall side of the vehicle.
 8. The mobility securement system of claim 6, wherein the two bumpers comprise a first bumper and a second bumper, in which the first bumper may extend to a position that is different from an extended position of the second bumper.
 9. The mobility securement system of claim 6, wherein at least one of said two bumpers are configured to articulate to in turn apply a force to a non-coplanar surface of the mobility device, relative to one of said wall side or aisle side of the vehicle.
 10. The mobility securement system of claim 1, wherein at least one of said first vehicle anchor assembly and said second vehicle anchor assembly are operably connected to said tensioning assembly.
 11. The mobility securement system of claim 10, wherein each of said first vehicle anchor assembly and said second vehicle anchor assembly are each operably connected to a respective tensioning assembly.
 12. The mobility securement system of claim 1, wherein at least one of said first attachment member and said second attachment member is operably connected to a tensioning assembly for imposing a tensile force thereupon.
 13. The mobility securement system of claim 12, wherein each of said first attachment member and said second attachment member is connected to a tensioning assembly for imposing a tensile force thereupon each.
 14. The mobility securement system of claim 1, wherein at least one of said first vehicle anchor assembly and said second vehicle anchor assembly is adapted to be stored at a position substantially flush to the floor of the vehicle.
 15. The mobility securement system of claim 1, wherein at least a portion of one of said first vehicle anchor assembly and said second vehicle anchor assembly is a removable vehicle anchor assembly capable of being operably attached to an anchor restraint fitting fixed to the floor of the vehicle.
 16. The mobility securement system of claim 1, wherein at least one of the first vehicle anchor assembly and the second vehicle anchor assembly is adapted to be positioned to the front of the mobility device and proximate to the wall side of the vehicle.
 17. The mobility securement system of claim 1, in which said system further comprises a rear barrier assembly configured to be positioned behind said mobility device, said barrier assembly adapted to be extended from a position substantially proximate to said wall side to a position substantially proximate said aisle side.
 18. The mobility securement system of claim 17, wherein at least one of the first vehicle anchor assembly and the second vehicle anchor assembly is operably positioned within said rear barrier assembly.
 19. The mobility securement system of claim 17, wherein the rear barrier assembly further includes a moveable bumper that is capable of extending from a retracted position to apply a force against the mobility device.
 20. The mobility securement system of claim 17, wherein the rear barrier assembly may rotate about a vertical axis.
 21. The mobility securement system of claim 17, wherein the rear barrier assembly may articulate in a downward direction toward said mobility device.
 22. The mobility securement system of claim 17, wherein the rear barrier assembly is capable of translating in a forward and rearward direction relative to the vehicle.
 23. The mobility securement system of claim 3, wherein, upon extension, said moveable bumper is capable of applying an angularly downward force against the mobility device.
 24. The mobility securement system of claim 3, wherein, upon extension, said moveable bumper is capable of articulating to apply an angularly downward force against the mobility device.
 25. The mobility securement system of claim 3, wherein the moveable bumper is capable of articulating to apply a coplanar force against a mobility device secured in a skewed position relative to the wall side of the vehicle. 